For nearly 30 years, NASA has been using satellite remote sensors to measure and map the density of vegetation over the Earth. Using NOAA’s Advanced Very High Resolution Radiometer (AVHRR), scientists have been collecting images of our planet’s surface. These images show the density of plant growth over the entire globe. The most common measurement is called the Normalized Difference Vegetation Index (NDVI). NDVI is calculated from the visible and near-infrared light reflected by vegetation. Healthy vegetation absorbs most of the visible light that hits it, and reflects a large portion of the near-infrared light. Unhealthy or sparse vegetation reflects more visible light and less near-infrared light. NDRE (Normalized Difference Red Edge) is an index formulated when the Red edge band is available in a sensor enabling chlorophyll content to be ascertained. While NDVI and NDRE can provide valuable data, advancements in multispectral sensors correct for some distortions in the reflected light caused by airborne particles and ground cover below the vegetation for more accurate imagery and data sets.

While typical multispectral cameras might have five channels, MALIBU’s multi-angular sensor array is comprised of 12 sensors or channels. The primary (port side) Tetracam camera has five channels and the incident light sensor, while the secondary (starboard side) camera has six channels. When combined, the cameras operate as a single sensor suite with a combined field-of-view of 117.2 degrees. The MALIBU channels were specifically chosen to cover the relative spectral response (RSR) of multiple satellite land sensors; such as the Landsat-8 OLI, the Sentinel-2 MSI, both Terra and Aqua MODIS, Terra MISR, Suomi-NPP/JPSS VIIRS, and Sentinel-3 OLCI. By deploying MALIBU several times over a single day, data from multiple solar angles and also multiple observation angles can be obtained, significantly improving the accuracy of BRDF retrievals.(1)

According to NASA, “By enabling increased understanding of surface directional reflectance variability at sub-pixel resolution, MALIBU will allow NASA missions to assess and improve the retrieval of reflectance-based biogeophysical properties”. This includes vegetation indices, land cover, phenology, surface albedo, snow/ice cover and Leaf Area Index (LAI)/Fraction of Absorbed Photosynthetically Active Radiation (fAPAR), and other terrestrial Essential Climate Variables (ECVs). According to the U.S. Geological Survey, the World Meteorological Organization (WMO) and its Global Climate Observing System (GCOS), Terrestrial ECVs generated from satellites provide the empirical evidence needed to understand and predict the evolution of climate, to guide mitigation and adaptation measures, to assess risks and enable attribution of climate events to underlying causes(2).

MALIBU relies heavily on Black Swift Technologies’ proprietary SwiftCore™ Flight Management System to achieve the accurate results the mission outlines. SwiftCore’s high-performance autopilot function allows the science team to deploy MALIBU at both AGL (variable height dependent on terrain) and MSL (near constant height), generating multi-angle reflectance measurement techniques for land surface process studies using sUAS. In initial flight tests, MALIBU was able to capture high angular sampling of surface reflectance anisotropy, (i.e., defined by the Bidirectional Reflectance Distribution Function, another Terrestrial ECV), at 10cm spatial resolution. Sampling of both diurnal and seasonal landscape patterns were achieved under clear-sky conditions (often difficult at high latitudes). Additionally, the quick turnaround between flight deployments (i.e., ready for the next flight in less than one hour), allowed the science team to conduct measurements during a Landsat-8 OLI overpass.

The success of the first field campaign of the MALIBU system demonstrates to scientists and land use planners worldwide the ability to monitor and plan for agriculture, climate and weather changes and effects more accurately and effectively than ever before.

About Black Swift Technologies
Founded in 2011, Black Swift Technologies LLC, develops custom unmanned aircraft system (UAS) solutions leveraging the SwiftCore™ Flight Management System (FMS) consisting of the SwiftPilot™ autopilot system, the SwiftTab™ tablet-based user interface, the SwiftStation™ ground station, and application specific sensor integrations. The SwiftCore™ FMS is designed to be modular, robust, and simple to operate allowing users to focus on data products.

In addition to the SwiftCore FMS, Black Swift Technologies has unique capabilities to develop and deploy advanced small unmanned aircraft systems (UAS) due the team’s combined expertise in the design, implementation, and analysis of advanced “smart” control systems, expertise in legal and safe flight operations in the United States airspace, and their practical experience and knowledge from thousands of hours of UAS flight operations in demanding conditions. The SwiftCore FMS enables advanced control systems. These “smart” control systems provide industry leading sensor-based control of the UAS that minimizes operator workload while improving the quality of the observed data by autonomously modifying the flight path based on sensor inputs.

The content & opinions in this article are the author’s and do not necessarily represent the views of AgriTechTomorrow

Post A Comment

Featured Product

With a full range of capacity options (85AH-3300AH) and voltage configurations to choose from, Rolls Battery maintenance-free 2V, 6V & 12V AGM and broad range of 2V GEL models offer a valve regulated lead acid (VRLA) battery option with the same dependable energy storage and heavy-duty construction customers have grown to expect from the Rolls brand for over sixty years. Installed in off-grid, grid-tied or backup float applications, these sealed batteries require minimal ongoing maintenance and provide a versatile energy storage solution for remote or confined installations. Rolls Battery AGM and GEL battery lines deliver superior cycle life and are backed by an industry-leading warranty.